JP2010532687A - Aerosol fire extinguishing composition applied to ordinary electrical equipment - Google Patents

Abstract

  The present invention relates to an aerosol fire-extinguishing composition that is applied to ordinary electrical equipment, and includes an oxidizing agent, a combustible agent, an adhesive, and an additive. The oxidizing agent in such a composition is a mixture of a potassium salt and a strontium salt, in which the potassium salt oxidizing agent is 15% by weight or more and less than 20% by weight in the total composition, and the strontium salt oxidizing agent is all It is more than 48 mass% and 52 mass% or less in a composition. In the aerosol fire-extinguishing composition of the present invention, the average particle diameter of all the components is 50 μm or less. The fire-extinguishing composition of the present invention can ensure that its insulation electrical resistance is 20 to 100 MΩ after extinguishing the fire-extinguishing space having ordinary electrical equipment. The aerosol fire-extinguishing composition of the present invention is more rational than the prior art, is environmentally friendly and applies to ordinary electrical installations.

Description

  The present invention belongs to the technical field of fire-extinguishing compositions, and relates to an aerosol fire-extinguishing composition that extinguishes fires A and B in a relatively sealed space, and more particularly to an aerosol fire-extinguishing composition that is applied to ordinary electrical equipment.

  The aerosol fire extinguishing technique that emerged from the 1990s is a fire extinguishing technique that destroys the free radical combustion chain reaction in the flame by the chemical reaction of the generated activity inhibitor based on the intense redox reaction between the oxidant and the fuel. There are mainly three types of aerosol fire extinguishing technology: hot aerosol fire extinguishing technology, cold aerosol fire extinguishing technology, and water mist fire extinguishing technology. Among them, the hot aerosol fire extinguishing technology includes a hot aerosol fire extinguishing technology for smoke explosives and a water hot aerosol.

  The current hot aerosol fire extinguishing technology for most smoke explosives is a fire extinguishing agent for smoke explosives based on solid materials consisting of oxidants, combustibles, adhesives and burn rate modifiers. Hot aerosol fire extinguishers for smoke explosives, as a substitute for halon, have high fire extinguishing efficiency, simple fire extinguishing equipment structure, no pressure-proof container, modular fire extinguishing equipment and combination, and normal temperature and normal pressure Can be stored, convenient maintenance, long extinguishing agent storage period, low cost, ozone consumption value ODP = 0, greenhouse effect GWP is relatively low, cost performance is high, etc. Significantly better than other types of fire extinguishers, it will be advantageous to enter the market and promote the implementation of halon replacement plans.

  In prior art prior to the present invention, alkali metal salts of nitrates, especially potassium nitrate, are the most common fireworks because the selection of oxidizers in hot aerosol fire extinguishers for fireworks can satisfy most of the requirements of the component selection principle. It is considered to be the most preferred oxidant in pharmaceutical hot aerosol fire extinguishing technology. Among them, most of the conventional techniques of aerosol fire-extinguishing compositions using one component of potassium nitrate as the oxidant are hot aerosol fire-extinguishing techniques such as RU2230726, RU2184487, RU221484, RU2150310, RU2108124, RU20991, RU2076761, RU2115135, RU2116095, RU2006239, RU2022589 , Potassium nitrate and / or potassium perchlorate, and / or Fire extinguishing compositions that select binary or multicomponent oxidizers assisted by alkali metals, alkaline earth metal nitrates and carbonates, such as CA2250325, DE19915352, UA7773, EP0561035, WO20050271370, RU2157271, RU2098156 , US20020126222, US5423385, US5492180, US54225426, US62727796, and other international patents.

  In selecting a combustible material, the range of substances that satisfy the principle of component selection is relatively wide, and usually an organic or inorganic combustible material that meets the requirements is selected on the assumption that the negative oxygen equilibrium design is satisfied. , RU218458, RU2214848, US20010011567, US6262772, RU2157271, RU2050878, US5831209, WO9733653, EP0561035, and the like. As water hot aerosol fire extinguishing technology, oxidizers and combustibles are based on the premise of satisfying the design of high oxygen equilibrium, ammonium nitrate, ammonium perchlorate, potassium nitrate, nitric acid that can produce gas, moisture and metal solid fine particles. Components such as strontium and guanidine nitrate are selected and disclosed in patents such as US Pat. No. 6,277,296, US Pat. No. 6,093,269, US Pat. No. 6,045,226, US Pat.

  Both of these hot aerosol fire extinguishing and patenting techniques have become one of the hot products of fire extinguishing in recent years, with features such as high fire extinguishing efficiency, low price, and convenient maintenance. However, with the application of the actual product to the market and the development work, many problems gradually appear in the conventional technology and the product. Due to the recent large amount of application and research, the fire extinguishing agent of one or multi-component oxidizer mainly composed of potassium nitrate has high fire extinguishing efficiency, but the strong basic conductive material of potassium hydroxide that is generated is protected. It has been shown that there are problems that cause secondary damage to objects. Especially in water-based hot aerosol fire extinguishing agents, the generated water forms a strongly basic conductive material with metal oxides more easily, meter room, control room, generator room, battery cabinet, communication base station, transformer station For other fires, after extinguishing the fire, ordinary electrical equipment is also damaged or corroded, resulting in an irreparable result. In addition, if the nitrous oxide produced is not decomposed quickly, it can cause neurotoxicity in humans.

  Based on this situation, some research departments and manufacturers have recently proposed hot aerosol fire extinguishing techniques that consider both fire extinguishing efficiency and secondary damage problems. For example, the CN200510105449 patent application discloses a technical proposal for an aerosol fire extinguishing agent that uses strontium nitrate as the only oxidizing agent, but the biggest drawback of this technical proposal is that it reduces secondary damage to ordinary electrical equipment to some extent. At the same time, the fire-extinguishing efficacy of the fire-extinguishing agent is greatly reduced. In the fire extinguishing composition of US Pat. No. 5,613,562 and US Pat. No. 5,609,210, it belongs to the water hot aerosol technology using strontium nitrate as an oxidizing agent. Its main effect is to vaporize the second type of fire-extinguishing liquid containing carbon-fluorine bonds and hydrocarbon-fluorine bonds as a power source and then inject it into the fire field. The produced hydrofluoric acid is a poisonous substance. Not only is it highly corrosive.

  The fire extinguishing composition of US6019861 also contains potassium nitrate or strontium nitrate components, but these are only used as additives or auxiliary oxidants, and the main oxidant must be subjected to phase stabilization treatment. Ammonium nitrate. The main role of potassium nitrate or strontium nitrate is to provide a high quality inflatable gas, which has the advantage of lower temperature for use in fire extinguishing technology, but at the same time affects the combustion rate and gas generation rate. Effect. US Pat. No. 6,093,269 provides a pyrogen gas generator with high oxygen balance, in which the action of high concentration strontium nitrate maintains a neutral equilibrium of oxygen / combustion, mainly in automobiles, gun propellants, expansion devices, Used in propellant compositions for safety airbags.

  Prior art CN1739920A, CN1150952C, CN1222331C approaching the technical subject of the present invention, where CN1150952C and CN1222331C are the prior patented technologies of the inventors of the present application. The shortage of these two technologies is that the design by type has not been made to meet the requirements for the insulation of different electrical facilities in terms of the balance between fire extinguishing effectiveness and corrosive problems with electrical facilities. . This is because different types of electrical equipment differ in their ability to withstand the different electrical insulation resistance drops of different risks due to electrostatic accumulation or acid-base corrosion.

  For example, for high-voltage electrical devices such as generators, motors, high / low piezoelectric devices, power networks, cables, etc., it is generally required that the insulation electrical resistance is ≧ 1 MΩ to <20 MΩ (People's Republic of China Power Industry Series Standard, For example, DL / T5161.7-2002 “Electrical device mounting process mass verification and rating rules (rotating electrical machine construction mass verification)” can be referred to). For ordinary electrical equipment such as communications, computers, vehicle electrical equipment, medical electrical equipment, etc., an insulation electrical resistance of ≧ 20 MΩ to <100 MΩ is generally required (People's Republic of China Electronic Industry Series Standard, PRC Communication Industry) Series standard, People's Republic of China computer industry series standard, for example GB 6649-86 “General Rules for Semiconductor Integrated Circuits”, IPC9201 “Surface Insulation Electrical Resistance Handbook”, etc.). Insulating electrical resistance ≥ 100 MΩ is generally required for precision electrical equipment such as meters, meters and substrates used for them, and printed circuit boards (People's Republic of China Electronic Industry Series Standard, International Printed Circuit Industry Series Standard, etc.) (For example, refer to IPC-CC-830B “printed plate assembly electrical insulation performance and mass handbook”, GB4793 “electronic survey instrument safety requirements”, GJB1717-93 “general standard for general printed circuit board connector”).

  Since different electrical equipment has different requirements for insulation electrical resistance, there is a problem in that the use of the same composition of fire fighting composition for different electrical equipment is inadequate in fire fighting efficiency and cost. Thus, including the inventors' prior patents, the design of ingredients and their content in the formulation is not perfect and certain technical property parameters need to be improved. In the prior art prior to the present invention, in addition to the above-described techniques, there has been no expertise in aerosol fire-extinguishing compositions that prevent and reduce secondary damage to electrical equipment and do not reduce fire-extinguishing efficacy.

  The present invention has been made in view of the above, and the object of the present invention is an aerosol fire-extinguishing composition that is more rational than the prior art, is environmentally friendly, and applies to ordinary electrical equipment, while maintaining high-efficiency fire-extinguishing efficacy. Is to provide.

  In recent years, the inventors of the present application have made a thorough study on hot aerosol fire extinguishing technology, and found that the effective fire extinguishing concentration is determined by the mass of the fire extinguishing preparation and the physicochemical properties inherent to the fire extinguishing preparation components themselves. It was discovered that the burning rate of the agent is related to factors such as oxygen balance design, oxidant, and choice of combustible agent. In order to achieve the object of the present invention, (1) fire extinguishing ability is designed with full consideration of ignitability, safety and chemical compatibility, and (2) only potassium salt is designed under the design principle of negative oxygen balance. It is necessary to conduct further research from the viewpoint of adopting an oxidant design that is not included, (3) simplifying the components of the composition as much as possible, and avoiding the generation of unnecessary harmful substances.

  The inventors of the present application conducted selection of oxidizer and combustible agent, combustion reaction rate adjustment test, fire extinguishing aerosol residual amount test, cooling technology test, fire extinguisher fine powder technology test, solid particulate hygroscopic insulation test many times, etc. In the end, the technical proposal of the aerosol fire-extinguishing composition applied to the ordinary electric equipment of the present invention was decided.

The aerosol fire-extinguishing composition applied to the ordinary electrical equipment of the present invention includes an oxidizing agent, a combustible agent, an adhesive, and an additive, wherein the oxidizing agent in the fire-extinguishing composition is a potassium oxidizing agent and a strontium oxidizing agent. A combustible is selected from guanidine nitrate, aminoguanidine nitrate, diaminoguanidine nitrate or a combination thereof; an additive is selected from one or more of aluminum powder, carbon powder, calcium carbonate; an adhesive is an epoxy resin; Selected from phenolic resins, acrylic resins or combinations thereof, and the weight percent of each component in the fire-fighting composition is:
Potassium salt oxidizing agent: 15% to less than 20%,
Strontium salt oxidizing agent: 48% to less than 52%,
Combustible: 10% to 25%,
Additive: 2% to 10%
Adhesive: 2% to 10%.

  The strontium salt used in the fire extinguishing composition of the present invention is one of strontium nitrate, strontium peroxide, strontium carbonate, strontium sulfite, strontium pyrophosphate, strontium bromide, strontium dichromate, strontium hexaboride, strontium permanganate. Or various combinations thereof, and the potassium salt is one or various combinations of potassium nitrate, potassium chlorate, potassium perchlorate, potassium chloride, potassium nitrite, potassium carbonate, potassium citrate, It may be partially or wholly replaced by one or various combinations of sodium bicarbonate, sodium nitrate, sodium perchlorate, ammonium nitrate, ammonium perchlorate, barium nitrate, cesium nitrate.

The combustibles that can be used in the fire-extinguishing composition of the present invention are pentaaminotetrazole and its salt, bistetrazole and its salt, diazoaminotetrazole and its salt, diaminotetrazole dimer and its salt in one or various combinations. It may be partially or wholly substituted.
Additives that can be used in the fire-fighting composition of the present invention include potassium pyrocatechol borate and salts thereof, hydroxybenzoic acid and salts thereof, benzoic acid and salts thereof, palmitic acid and salts thereof, ammonium nitrate, potassium perchlorate, It may be partially or wholly replaced by one or various combinations in potassium chloride, copper oxide, iron oxide, copper phthalocyanine, potassium ferricyanide, hexamethylenetetraamine.

The adhesive that can be used in the fire-extinguishing composition of the present invention is partially or in combination with one or various combinations of polytetrafluoroethylene, ethylene polymer, nitrocellulose, trialdehyde glyceride, polyvinyl acetate, and melamine resin. All may be substituted.
The maximum average particle size of the oxidizer, combustible agent, additive, and adhesive particles in the fire-extinguishing composition of the present invention is 50 μm or less.

According to one preferred mode of implementation of the present invention, the aerosol fire fighting composition comprises:
Potassium nitrate: 15% to 19%,
Strontium nitrate: 48% -51%
Guanidine nitrate: 10% to 25%,
Aluminum powder: 2% -10%
Phenolic resin: Contains 2% to 10%.

According to another preferred mode of implementation of the present invention, the aerosol fire fighting composition comprises:
Potassium perchlorate: 15% to 19%,
Strontium peroxide: 48% -51%
Aminoguanidine nitrate: 10% to 25%,
Hydroxybenzoic acid or a salt thereof: 2% to 10%,
Acrylic resin: 2% to 10% included.

According to another preferred mode of implementation of the present invention, the aerosol fire-extinguishing composition comprises:
Potassium nitrite: 15% to 19%,
Strontium permanganate: 48% to 51%,
Pentaaminotetrazole or a salt thereof: 10% to 25%,
Iron oxide: 2% to 10%,
Epoxy resin: 2% to 10% included.

According to another preferred mode of implementation of the present invention, the aerosol fire-extinguishing composition comprises:
Potassium carbonate: 15% to 19%,
Strontium pyrophosphate: 48% -51%,
Diazoaminotetrazole or a salt thereof: 10% to 25%,
Potassium ferricyanide: 2% to 10%,
Polytetrafluoroethylene: Contains 2% to 10%.

  After extinguishing a fire in a fire extinguishing space having ordinary electric equipment with the aerosol fire extinguishing composition of the present invention, the insulation electric resistance of the ordinary electric equipment is 20 MΩ to 100 MΩ.

  The inventors of the present application have repeatedly selected and tested the oxidizing agent, the combustible agent, the adhesive, the additive component, and the blending ratio, and the technical proposal of the aerosol fire-extinguishing composition to be applied to the established ordinary electric equipment is as follows. Through repeated tests, it was proved that the insulation electric resistance of ordinary electric equipment after fire extinguishing was all greater than 20 MΩ, and compared with the prior art, the present invention achieved the purpose of not causing secondary damage to ordinary electric equipment after fire extinguishing At the same time, a fire extinguishing effect that should have been ensured, and a new generation dedicated high-efficiency aerosol fire-extinguishing composition.

[Example]
EXAMPLES The present invention will be described in detail below with reference to examples, but the present invention is not limited to these examples.
In accordance with the composition shown in the following table, an aerosol fire-extinguishing composition to be applied to the ordinary electrical equipment of the present invention was prepared, and the insulated electrical resistance of the precipitate was measured based on the following description.

note:
1. Acrylic resin: 104 type manufactured by Xi'an Resin Factory; Polytetrafluoroethylene: Particle type manufactured by Sichuan Narimitsu Factory; Epoxy resin: E51 type manufactured by Dalian Chika Factory; The insulation electric resistance of the aerosol fire-extinguishing agent precipitate was measured in accordance with GB 499.1-2007.10.2. The test equipment includes a test case (1M ³ (1 × 1 × 1 m)), a high resistance meter (ZC36 type high resistance meter manufactured by Shanghai Precision Instrument Factory), a petri dish, a precision balance, and a survey range of 0.1 MΩ to 500 MΩ. An aerosol generator is included.

3. The test plate is a white PVC test plate of 100 × 100 × 1 mm, and 100 g of the aerosol generator is pushed into a reagent cartridge having a diameter of 40 mm and a height of 100 mm by a pressure machine at a pressure of 5 Mpa, and an electric starter is attached. The reagent cartridge is then attached to the small generator and no coolant is added into the generator.
4. At the time of the test, place the cleaned test plate on a Petri dish with tweezers and leave the Petri dish flat on a test stand having a height of 250 mm in the center of the test case. Place the generator in one corner of the test case, with the nozzle hole behind the test plate, connect the trigger line, and close the test case door. At the same time as starting the device, time is measured with a stopwatch. After 20 minutes, the Petri dish on which the test plate is left is taken out, placed in a constant temperature and humidity case with a temperature of 35 ° C. and a humidity of 90%, kept for 30 minutes, the test plate is taken out, and the electrical resistance is measured immediately.

Claims (13)

An aerosol fire-extinguishing composition applied to ordinary electrical equipment, including an oxidant, a flammable agent, an adhesive and an additive,
The oxidizing agent in the fire-extinguishing composition is a mixture of a potassium salt oxidizing agent and a strontium salt oxidizing agent, the combustible agent is selected from guanidine nitrate, aminoguanidine nitrate, diaminoguanidine nitrate or combinations thereof, and the additive is aluminum powder, Selected from one or various combinations of carbon powder and calcium carbonate, the adhesive is selected from an epoxy resin, a phenol resin, an acrylic resin or a combination thereof, and the mass% of each component in the fire-extinguishing composition is
Potassium salt oxidizing agent: 15% to less than 20%,
Strontium salt oxidizing agent: 48% to less than 52%,
Combustible: 10% to 25%,
Additive: 2% to 10%
Adhesive: 2% to 10%
An aerosol fire-extinguishing composition that is applied to ordinary electrical equipment.   The strontium salt is one or a combination of strontium nitrate, strontium peroxide, strontium carbonate, strontium sulfite, strontium pyrophosphate, strontium bromide, strontium dichromate, strontium hexaboride, and strontium permanganate. The aerosol fire-extinguishing composition applied to the ordinary electrical equipment according to claim 1.   The normal electrical equipment according to claim 1, wherein the potassium salt is one or a combination of potassium nitrate, potassium chlorate, potassium perchlorate, potassium chloride, potassium nitrite, potassium carbonate, and potassium citrate. An aerosol fire-extinguishing composition to be applied to.   The potassium chlorinating agent is characterized in that it is partially or completely replaced by one or various combinations of sodium bicarbonate, sodium nitrate, sodium perchlorate, ammonium nitrate, ammonium perchlorate, barium nitrate, cesium nitrate. The aerosol fire-extinguishing composition applied to the ordinary electrical equipment according to claim 1.   The combustible agent is partially or completely replaced by one or various combinations of pentaaminotetrazole and its salt, bistetrazole and its salt, diazoaminotetrazole and its salt, diaminotetrazole dimer and its salt, The aerosol fire-extinguishing composition applied to the ordinary electrical equipment according to claim 1.   Additives include potassium pyrocatechol borate and salts thereof, hydroxybenzoic acid and salts thereof, benzoic acid and salts thereof, palmitic acid and salts thereof, ammonium nitrate, potassium perchlorate, potassium chloride, copper oxide, iron oxide, copper phthalocyanine, The aerosol fire-extinguishing composition applied to ordinary electric equipment according to any one of claims 1 to 3, wherein the composition is partially or entirely replaced by one or various combinations of potassium ferricyanide and hexamethylenetetraamine. .   The adhesive is partially or completely replaced by one or various combinations of polytetrafluoroethylene, ethylene polymer, nitrocellulose, trialdehyde glyceride, polyvinyl acetate, and melamine resin. The aerosol fire-extinguishing composition applied to the normal electrical installation in any one of 1-3.   The aerosol fire-extinguishing composition applied to ordinary electrical equipment according to any one of claims 1 to 7, wherein the maximum average particle size of the oxidizer, combustible agent, adhesive, and additive particles is 50 µm or less. .   The fire resistance in a fire extinguishing space having ordinary electrical equipment is extinguished with an aerosol fire-extinguishing composition, and the insulation electrical resistance of the ordinary electrical equipment is 20 MΩ to 100 MΩ, according to claim 1, Aerosol fire extinguishing composition applied to ordinary electrical equipment. Potassium nitrate: 15% to 19%,
Strontium nitrate: 48% -51%
Guanidine nitrate: 10% to 25%,
Aluminum powder: 2% -10%
Phenolic resin: 2% to 10%
An aerosol fire-extinguishing composition applied to ordinary electrical equipment according to any one of claims 1 to 7, characterized in that Potassium perchlorate: 15% to 19%,
Strontium peroxide: 48% -51%
Aminoguanidine nitrate: 10% to 25%,
Hydroxybenzoic acid or a salt thereof: 2% to 10%,
Acrylic resin: 2% to 10%
An aerosol fire-extinguishing composition applied to ordinary electrical equipment according to any one of claims 1 to 7. Potassium nitrite: 15% to 19%,
Strontium permanganate: 48% to 51%,
Pentaaminotetrazole or a salt thereof: 10% to 25%,
Iron oxide: 2% to 10%,
Epoxy resin: 2% to 10%
An aerosol fire-extinguishing composition applied to ordinary electrical equipment according to any one of claims 1 to 7, characterized in that Potassium carbonate: 15% to 19%,
Strontium pyrophosphate: 48% -51%,
Diazoaminotetrazole or a salt thereof: 10% to 25%,
Potassium ferricyanide: 2% to 10%,
Polytetrafluoroethylene: 2% to 10%
An aerosol fire-extinguishing composition applied to ordinary electrical equipment according to any one of claims 1 to 7, characterized in that